Orthodontic appliance including arch member

ABSTRACT

Various embodiments of an orthodontic appliance and method for forming such appliance are disclosed. The appliance can include a first anchor and a second anchor each including an anchor coupling and a base adapted to connect the respective anchor to a surface of a first tooth and a second tooth respectively. The appliance can also include an arch member including an arch member body and first and second arch member couplings integral with the body, the arch member body including a cross-sectional geometry that varies along a length of the body. The first arch member coupling can be releasably connectable to the anchor coupling of the first anchor and the second arch member coupling can be releasably connectable to the anchor coupling of the second anchor. The arch member body can include a first nonlinear portion between the first arch member coupling and the second arch member coupling.

BACKGROUND

Orthodontics is the area and specialty of dentistry associated with thesupervision, guidance, and correction of malpositioned teeth into properlocations. Orthodontic treatment can be useful in correcting defects ina patient's bite (also called occlusion) along with promoting betterhygiene and improving the overall aesthetics and health of the teeth.

Orthodontic treatment often involves the use of slotted appliances knownas brackets, which are generally affixed to the patient's anterior,cuspid, and bicuspid teeth. After the brackets have been placed on theteeth, an archwire is received into a slot of each bracket. The archwirecan act as a track to guide the movement of respective teeth toorthodontically correct positions. End sections of the archwire aretypically captured in appliances known as buccal tubes that are affixedto the patient's molar teeth. The brackets, archwires, and buccal tubesare typically referred to collectively as “braces.”

Conventional braces, however, have inherent limitations. For example,brackets and wires in the mouth tend to trap food and plaque, especiallyin areas behind the archwire and beneath bracket tiewings. The poor oralhygiene that results from plaque build-up, in turn, can lead toadditional problems, including tooth decay, gingivitis, periodontaldisease, etc. Plaque build-up adjacent the brackets in particular canalso cause decalcification and so-called “white spot” lesions on enamelsurfaces of teeth that remain even after the braces are removed at theconclusion of treatment.

Removable appliances can significantly alleviate some of these problemsbecause the appliances can be removed from the mouth while eating and/orbrushing. Not only do removable appliances facilitate the maintenanceand cleaning of the teeth, they also facilitate cleaning of theappliance. Popular removable appliances include polymeric aligner shellsmanufactured by Align Technology (Santa Clara, Calif.), which areintended to incrementally and progressively re-position teeth to adesired teeth arrangement. Other types include wire-embedded appliancessuch as those based on the Hawley retainer or Crozat appliance, whichtypically use metal wires that passively contact the teeth surfaces.While these appliances can be used to provide corrective toothmovements, they are most commonly used for retention of teeth aftercorrection has been completed. Spring aligners, also called springretainers, which combine aspects of both clear aligners andwire-embedded retainers, can also be used for orthodontic correction.These aligners, however, are limited in the types of forces they canapply to teeth, which in turn can limit the breadth of dentalmalocclusions that can be treated.

SUMMARY

In general, the present disclosure provides various embodiments of anorthodontic appliance and methods of forming such appliance. In one ormore embodiments, the appliance can include one or more anchors and anarch member. Each anchor can include an anchor coupling and a baseadapted to connect the anchor to a surface of a tooth. Further, the archmember can include an arch member body and one or more arch membercouplings integral with the body. In one or more embodiments, the bodyof the arch member can include a cross-sectional geometry that variesalong a length of the body. The arch member coupling can be releasablyconnectable to the anchor coupling.

In one aspect, the present disclosure provides an orthodontic appliancethat includes a first anchor including an anchor coupling and a baseadapted to connect the first anchor to a surface of a first tooth, and asecond anchor including an anchor coupling and a base adapted to connectthe second anchor to a surface of a second tooth. The appliance alsoincludes an arch member including an arch member body and first andsecond arch member couplings integral with the body, the arch memberbody including a cross-sectional geometry that varies along a length ofthe body. The first arch member coupling is releasably connectable tothe anchor coupling of the first anchor and the second arch membercoupling is releasably connectable to the anchor coupling of the secondanchor. The arch member body includes a first nonlinear portion betweenthe first arch member coupling and the second arch member coupling thatis adapted to be spaced apart from the surfaces of the first and secondteeth when the first and second anchors are connected to the surfaces ofthe first and second teeth and the first and second arch membercouplings are releasably connected to the anchor couplings of the firstand second anchors.

In another aspect, the present disclosure provides an orthodonticappliance that includes an arch member including an arch member body anda plurality of arch member couplings integral with the body, and aplurality of anchors each including an anchor coupling and a baseadapted to connect the anchor to a surface of a tooth. Each arch membercoupling is releasably connectable to the anchor coupling of an anchorof the plurality of anchors. Further, a first portion of the arch memberbody is adapted to provide a first corrective force and a second portionof the arch member body is adapted to provide a second corrective forcedifferent from the first corrective force. The arch member body isadapted to not contact the surface of the tooth when the anchor of theplurality of anchors is connected to the surface of the tooth.

In another aspect, the present disclosure provides a method of formingan arch member that includes an arch member body and an arch membercoupling integral with the body. The method includes providing asubstrate including a resilient material, and removing a portion of thesubstrate to form the arch member.

In another aspect, the present disclosure provides a method ofspecifying an orthodontic appliance. The method includes providing aproposed specification of the orthodontic appliance, where theorthodontic appliance includes an arch member including an arch memberbody and an arch member coupling integral with the body. The appliancealso includes a set of anchors, each anchor including an anchor couplingand a base adapted to connect the anchor to a surface of a tooth. Eacharch member coupling is releasably connectable to an anchor coupling.Further, the arch member body includes a cross-sectional geometry thatvaries along a length of the body. The method further includes providinga first digital image representing a first dental arrangement associatedwith the orthodontic appliance, deriving a target digital imagerepresenting a target dental arrangement, revising the proposedspecification of the orthodontic appliance based in part on the targetdigital image, and forming the orthodontic appliance based on therevised proposed specification.

In another aspect, the present disclosure provides an orthodontictreatment system that includes an orthodontic appliance. The orthodonticappliance includes a set of arch members, each arch member including anarch member body and an arch member coupling integral with the body. Atleast one arch member of the set of arch members includes an arch memberbody including a cross-sectional geometry that varies along a length ofthe body. The appliance also includes a set of anchors adapted toconnect to respective teeth of a patient's dental arch, each anchorincluding an anchor coupling and a base adapted to connect the anchor toa surface of a tooth. The arch member coupling is releasably connectableto an anchor coupling of an anchor of the set of anchors. Further, afirst arch member of the set of arch members has a first cross-sectionalgeometry adapted to move at least one tooth from a first arrangement toa second arrangement, and a second arch member of the set of archmembers has a second cross-sectional geometry adapted to move at leastone tooth from the second arrangement to a third arrangement.

All headings provided herein are for the convenience of the reader andshould not be used to limit the meaning of any text that follows theheading, unless so specified.

The terms “comprises” and variations thereof do not have a limitingmeaning where these terms appear in the description and claims. Suchterms will be understood to imply the inclusion of a stated step orelement or group of steps or elements but not the exclusion of any otherstep or element or group of steps or elements.

The words “preferred” and “preferably” refer to embodiments of thedisclosure that may afford certain benefits, under certaincircumstances; however, other embodiments may also be preferred, underthe same or other circumstances. Furthermore, the recitation of one ormore preferred embodiments does not imply that other embodiments are notuseful, and is not intended to exclude other embodiments from the scopeof the disclosure.

In this application, terms such as “a,” “an,” and “the” are not intendedto refer to only a singular entity, but include the general class ofwhich a specific example may be used for illustration. The terms “a,”“an,” and “the” are used interchangeably with the term “at least one.”The phrases “at least one of” and “comprises at least one of” followedby a list refers to any one of the items in the list and any combinationof two or more items in the list.

The phrases “at least one of” and “comprises at least one of” followedby a list refers to any one of the items in the list and any combinationof two or more items in the list.

As used herein, the term “or” is generally employed in its usual senseincluding “and/or” unless the content clearly dictates otherwise. Theuse of the term “and/or” in certain portions of this disclosure is notintended to mean that the use of “or” in other portions cannot mean“and/or.”

The term “and/or” means one or all of the listed elements or acombination of any two or more of the listed elements.

As used herein in connection with a measured quantity, the term “about”refers to that variation in the measured quantity as would be expectedby the skilled artisan making the measurement and exercising a level ofcare commensurate with the objective of the measurement and theprecision of the measuring equipment used. Herein, “up to” a number(e.g., up to 50) includes the number (e.g., 50). Also herein, therecitations of numerical ranges by endpoints include all numberssubsumed within that range as well as the endpoints (e.g., 1 to 5includes 1, 1.5, 2, 2.75, 3, 3.80, 4, 5, etc.).

Glossary

The terms set forth herein will have the meanings as defined:

“adapted for displacement” means that an anchor of an orthodonticappliance is designed such that it is able to move relative to an archmember body that is connected to the anchor. The movement of the anchorrelative to the arch member body can be translational, rotational, and acombination of translational and rotational movement. Further, themovement of the anchor relative to the arch member body can be in anyplane and along any desired path;

“angulation” means the tilt of the long axis of the tooth in a mesial ordistal direction;

“cross-sectional geometry” means a cross-sectional shape of an archmember body taken in a plane orthogonal to a length of the arch memberbody;

“corrective force” means a force or forces applied to one or more of apatient's teeth by an orthodontic appliance;

“distal” means in a direction away from the center of the patient'scurved dental arch;

“facial” means in a direction toward the patient's lips or cheeks;

“gingival” means in a direction toward the patient's gums or gingiva;

“inclination” means the tilt of the long axis of a tooth in thebuccolingual or faciolingual direction;

“lingual” means in a direction toward the patient's tongue;

“mesial” means in a direction toward the center of the patient's curveddental arch;

“occlusal” means in a direction toward the outer tips of the patient'steeth;

“releasably connectable” means that an arch member coupling can beconnected to an anchor coupling of an anchor such that an arch memberconnected to the arch member coupling remains attached to the anchor andthat the arch member coupling can be disconnected from the anchorcoupling using an appropriate amount of force without destroying oraltering the anchor coupling;

“rotation” means turning of a tooth by movement around its long axis;

“self ligating” means that an arch member can be connected to one ormore anchors that are connected to surfaces of one or more teeth withoutthe need for use of additional ties, wires, clamps, or other devicesthat fix the arch member in place; and

“torque” means a corrective force that changes the inclination of thetooth.

These and other aspects of the present disclosure will be apparent fromthe detailed description below. In no event, however, should the abovesummaries be construed as limitations on the claimed subject matter,which subject matter is defined solely by the attached claims, as may beamended during prosecution.

BRIEF DESCRIPTION OF THE DRAWINGS

Throughout the specification, reference is made to the appendeddrawings, where like reference numerals designate like elements, andwherein:

FIG. 1 is a schematic perspective view of one embodiment of anorthodontic appliance connected to surfaces of one or more teeth of apatient.

FIG. 2 is a schematic perspective view of a portion of the orthodonticappliance of FIG. 1.

FIG. 3 is a schematic plan view of a portion of the orthodonticappliance of FIG. 1.

FIG. 4 is a schematic perspective view of a portion of an arch member ofthe appliance of FIG. 1.

FIG. 5 is a schematic perspective view of a portion of anotherembodiment of an arch member.

FIG. 6 is a schematic perspective view of a portion of anotherembodiment of an orthodontic appliance connected to surfaces of one ormore teeth of a patient.

FIG. 7 is a schematic perspective view of an anchor of the orthodonticappliance of FIG. 6.

FIG. 8 is a schematic perspective view of a portion of anotherembodiment of an orthodontic appliance.

FIG. 9 is a schematic perspective view of a portion of anotherembodiment of an orthodontic appliance.

FIG. 10 is a schematic perspective view of a portion of anotherembodiment of an orthodontic appliance.

FIG. 11 is a schematic perspective view of a portion of anotherembodiment of an orthodontic appliance.

FIG. 12 is a schematic perspective view of a portion of anotherembodiment of an orthodontic appliance.

FIG. 13 is a schematic perspective view of an anchor of the orthodonticappliance of FIG. 12.

FIG. 14 is a schematic perspective view of a portion of anotherembodiment of an orthodontic appliance.

FIG. 15 is a schematic perspective view of a portion of anotherembodiment of an orthodontic appliance.

DETAILED DESCRIPTION

In general, the present disclosure provides various embodiments of anorthodontic appliance and a method of forming such appliance. In one ormore embodiments, the appliance can include one or more anchors and anarch member. Each anchor can include an anchor coupling and a baseadapted to connect the anchor to a surface of a tooth. Further, the archmember can include an arch member body and one or more arch membercouplings integral with the body. In one or more embodiments, the bodyof the arch member can include a cross-sectional geometry that variesalong a length of the body. The arch member coupling can be releasablyconnectable to the anchor coupling.

Orthodontic systems typically rely on straightening teeth by attaching astressed archwire to an orthodontic bracket. The teeth move and unravelto the final or relaxed shape of the archwire. A typical orthodonticappliance includes an orthodontic archwire that slides within a lumen orslot of an orthodontic bracket as the teeth straighten. The movement ofthe archwire relative to the orthodontic bracket can be referred to asthe sliding mechanics of the appliance. Passive brackets allow thearchwire to move freely within the slot regardless of the archwire size.This can allow faster tooth movement during the initial stages oftreatment because of the reduced friction between the archwire and thebracket but may cause difficulties during the finishing stages oftreatment. Active brackets tend to force the archwire to the bottom ofthe archwire slot to increase bracket control. This increase in bracketcontrol allows the practitioner to more easily align the teeth duringthe finishing stages of treatment. Active brackets, however, canincrease the amount of friction between the archwire and the bracket,thereby impairing the sliding mechanics of the orthodontic system.

One or more embodiments of orthodontic appliances described herein caninclude an arch member having one or more arch member couplings thatreleasably couple to anchor couplings of one or more anchors such thatthe arch member does not move relative to the anchor. The arch membercan include an arch member body that is formed into one or moregeometries that can emulate the sliding mechanics of a conventionalorthodontic system. In one or more embodiments, the various geometriescan dictate a path that does not follow sliding mechanics. Because thearch member body does not move relative to the anchor, the anchor can,in one or more embodiments, be made substantially simpler and smaller.This can be especially advantageous when the orthodontic appliance isconnected to a lingual surface of one or more teeth as the space in thislingual orientation for placing an orthodontic appliance is somewhatlimited. Further, because the arch member body does not move relative tothe anchor, no friction exists between the arch member body and theanchor. This lack of friction between the arch member and the anchorsmay, in one or more embodiments, allow the teeth to unravel andstraighten within a shorter period of time.

Current removable appliances, while offering certain hygiene benefits,can also have shortcomings related to treatment efficacy. Polymericshells, for example, tend to be limited in their ability to correctparticular dental malocclusions. Further, extrusion, gap closure, andmolar tooth movement can be difficult or impossible to achieve becausethese shells rely on relatively weak mechanical retention between theshell and the teeth. Further, polymeric shells may not be entirelyaesthetic even when clear since they still cover the facial teethsurfaces and can stain or trap dark liquids such as coffee. On the otherhand, retainer-like appliances that use springs or clasps that engagewith teeth suffer from many of the same shortcomings as polymericshells. These appliances, as a whole, may not positively engage with theteeth in a manner that allows precise torque, angulation, rotation, andtranslation control. Further, many of these appliances are generally notaesthetic as they use a facial wire residing over the facial surface ofthe teeth to prevent proclination of the teeth.

One or more embodiments of orthodontic appliances described herein canbe easily installed and removed by a practitioner as the appliance isself-ligating, i.e., an arch member of the appliance can be connected toone or more anchors that are connected to surfaces of one or more teethwithout the need for use of additional ties, wires, clamps, or otherdevices that fix the arch member in place. In one or more embodimentswhere the appliance is adapted to be connected to a lingual surface ofone or more teeth of a patient, the appliance can be more aestheticallypleasing than clear aligners as the appliance is at least partiallyhidden from view by the patient's teeth.

FIGS. 1-4 are various schematic views of one embodiment of anorthodontic appliance 10. The appliance 10 is shown in FIG. 1 connectedto one or more teeth 12 of a patient. The appliance 10 can include oneor more anchors 30, where one or more anchors includes an anchorcoupling 34 and a base 32 adapted to connect the anchor to a surface 13of a tooth 12. The appliance 10 can also include an arch member 20 thatincludes an arch member body 22 and one or more arch member couplings 24connected to the arch member body. As is further described herein, thearch member coupling 24 can be releasably connectable to the anchorcoupling 34.

The orthodontic appliance 10 can also include one or more anchors 30. Atleast one anchor 30 can include an anchor coupling 34 and a base 32adapted to connect the anchor to a surface 13 of a tooth 12. Forexample, the appliance 10 can include a first anchor 40, a second anchor42, and a third anchor 44. The first anchor 40 can include an anchorcoupling 34 and a base 32 adapted to connect the respective anchor to asurface 15 of a first tooth 14. The second anchor 42 can include ananchor coupling 34 and a base 32 adapted to connect the second anchor toa surface 17 of a second tooth 16. And the third anchor 44 can includean anchor coupling 34 and a base 32 adapted to connect the third anchorto a surface 19 of a third tooth 18. Further, the arch member 20 caninclude a first arch member coupling 23, a second arch member coupling28, and a third arch member coupling 29. The first arch member coupling23 can be releasably connectable to the anchor coupling 34 of the firstanchor 40, the second arch member coupling 28 can be releasablyconnectable to the anchor coupling 34 of the second anchor 42, and thethird arch member coupling 29 can be releasably connectable to theanchor coupling 34 of the third anchor 44.

The anchor coupling 34 can take any suitable shape or combination ofshapes. For example, the anchor coupling 34 can include a slot 36 thatis adapted to receive one or more tabs 26 of arch member coupling 24.The slot 36 can include one or more openings 39 that are adapted toreceive barb 21 of tab 26 such that the tab is releasably connected tothe slot 36. To remove the arch member coupling 24 from the anchorcoupling 34, the practitioner can bring together the tabs 26 such thatthe barb 21 is no longer engaged with opening 39 of slot 36.

The anchor 30 can include any suitable material or combination ofmaterials. For example, the anchor 30 can include metallic material,polymeric material, glass material, and combinations thereof. In one ormore embodiments, the anchor 30 can include the same materials asdescribed for the arch member body 22. The anchor 30 can also take anysuitable shape or combination of shapes such that the base is adapted toconnect the anchor to a surface of a tooth and releasably connect theanchor to arch member coupling 24.

The base 32 of the anchor 30 can have a tooth facing surface contourthat is customized to fit any suitable surface of a tooth 12. Forexample, in one or more embodiments, the base 32 has a tooth-facingsurface contour that is customized to fit a lingual surface 13 of thetooth 12. Having a customized base 32 can allow the anchor 30 to beconfigured with a lower profile for patient comfort. In one or moreembodiments, the base 32 of the anchor 30 can be customized such that itprovides a self-positioning “lock and key” mechanism, where the base hascontours that only allow anchor 30 to be mounted on the teeth 12 in aunique, well-defined location and orientation. Any suitable technique orcombination of techniques can be utilized to form customized bondableanchors, e.g., the techniques described in U.S. Pat. No. 6,776,614(Wiechmann et al.), U.S. Pat. No. 7,811,087 (Wiechmann et al.), and U.S.Pat. No. 7,850,451 (Wiechmann et al.), and U.S. Patent Publication No.2005/0277084 (Cinader et al.). In one or more embodiments, the base 32of one or more anchors 30 can include any suitably shaped surface thatis not necessarily customized to fit a particular surface of a tooth,i.e., a “generic” base.

The anchor 30 can be attached to the surface 13 of tooth 12 using anysuitable technique or combination of techniques. For example, the anchor30 can be bonded to the surface 13 of tooth 12 using a suitable adhesiveor cement. The anchor 30 need not be adhesively bonded. For example, oneor more anchors 30 may be welded to an orthodontic band and the bandsubsequently secured to a respective tooth 12 using a suitable bandcement. In one or more embodiments, anchors 30 are bondable lingualbuttons or other commercially available off-the-shelf bondableappliances. Further, anchors 30 may be formed entirely from a curablecomposite dental material, such as TRANSBOND brand light cure adhesive(available from 3M Company, St. Paul, Minn.), and cured in vivo on thepatient's teeth using techniques such as those described in U.S. PatentApplication Publication No. 2007/0031774 (Cinader et al.).

Connected to one or more anchors is the arch member 20. In one or moreembodiments, the arch member can be a self-ligating arch member. Thearch member includes the arch member body 22 and one or more arch membercouplings 24 connected to the body. In one or more embodiments, the archmember couplings 24 can be integral with the body 22. The arch member 20can include any suitable number of arch member couplings 24, e.g., 1, 2,3, 4, 5 or more couplings. The arch member couplings 24 can be connectedto the arch member body 22 using any suitable technique or combinationof techniques. In one or more embodiments, the arch member couplings 24can be attached to the arch member body 22 using any suitable techniqueor combination of techniques, e.g., welding, adhering using an adhesive,etc. In one or more embodiments, the arch member couplings 24 can beintegrally formed with the arch member body 22 such that the arch membercouplings are integral with the arch member body 22.

The arch member couplings 24 can include any suitable material orcombination of materials. In one or more embodiments, the arch membercouplings 24 can include the same material or combination of materialsas those described for the arch member body 22. Each of the arch membercouplings 24 can include the same material or combination of materials.In one or more embodiments, one or more arch member couplings 24 caninclude materials that are different from one or more additional archmember couplings 24.

The arch member couplings 24 can take any suitable shape or combinationof shapes such that the arch member couplings are releasably connectableto one or more anchor couplings 34. Examples of releasable couplings aredescribed, e.g., in issued U.S. Pat. No. 6,302,688 (Jordan et al.), U.S.Pat. No. 6,582,226 (Jordan et al.), U.S. Pat. No. 7,014,460 (Lai etal.), U.S. Pat. No. 7,252,505 (Lai), and U.S. Pat. No. 8,827,697(Cinader et al.), and pending U.S. Patent Application Publication No.2005/0277084 (Cinader et al.). In one or more embodiments, the archmember coupling 24 and the anchor coupling 34 can each include across-sectional shape having two or more sides such that the appliance10 can provide a force to correct angulation of one or more teeth.Although depicted as being connected to teeth via arch member couplings24 and anchor couplings, in one or more embodiments, a portion of thearch member body 22 can be adapted to be attached directly to a surface13 of a tooth 12 using any suitable technique or combination oftechniques, e.g., direct bonding to the surface of the tooth.

The arch member couplings 24 and the anchor couplings 34 can be adaptedsuch that the arch member body 22 and one or more anchors 30 are in afixed relationship when the arch member coupling is connected to theanchor coupling of the anchor. In other words, when the anchor coupling34 and the arch member coupling 24 are connected, the arch member body22 adjacent the arch member coupling 24 is fixed and cannot moverelative to the anchor in a direction parallel to the surface 13 of theattached tooth 12, i.e., the arch member body cannot slide relative tothe anchor. In one or more embodiments, the anchor 30 can be adapted fordisplacement relative to the arch member body 22 when the anchor isconnected to the tooth 12 and the arch member coupling 24 is releasablyconnected to the anchor coupling 24 of the anchor. As used herein, thephrase “adapted for displacement” means that the anchor 30 is designedsuch that it is able to move relative to the arch member body 22 that isconnected to the anchor in a direction parallel to the surface 13 of theattached tooth 12. In one or more embodiments, the anchor 30 can moverelative to the arch member body 22. In one or more embodiments, thearch member body can move relative to the anchor 30. In one or moreembodiments, both the anchor 30 and the arch member body 22 can moverelative to each other.

In the embodiment illustrated in FIGS. 1-4, the arch member coupling 24includes one or more tabs 26 that are adapted to engage a slot 36 ofanchor coupling 34. Each tab 26 can take any suitable shape orcombination of shapes. In one or more embodiments, the tab 26 can be aresilient tab. Further, in one or more embodiments, one or more tabs 26can include a barb 21 that is adapted to retain the tab in the slot 36of the anchor coupling 34. In other words, the arch member coupling 24can include a male coupling and the anchor coupling 34 can include afemale coupling, or the arch member coupling can include a femalecoupling and the anchor coupling can include a male coupling. In one ormore embodiments, one or more arch member couplings 24 can include malecouplings that couple to one or more anchor couplings 34 that includefemale couplings, and one or more additional arch member couplings caninclude female couplings that couple to one or more additional anchorcouplings that include male couplings.

The forces required to connect and disconnect couplings 24, 34 from eachother can be sufficiently low to allow easy insertion and removal of thearch member 20 by the patient. In one or more embodiments, these forcescan be sufficiently high such that the arch member 20 connects to thepatient's dental structure and does not unintentionally detach from anyof the anchors 30 during treatment. That is, couplings 24, 34 can remainconnected even when subjected to normal corrective forces and otherforces encountered during treatment. In one or more embodiments,couplings 24, 34 are adapted to yield an engagement force that is as lowas possible. In one or more embodiments, the disengagement forces areneither too high such that disengagement causes patient discomfort nortoo low such that spontaneous disengagement occurs during treatment. Theoptimal values for engagement and disengagement forces may varyconsiderably from tooth to tooth and depend in part on the configurationof the arch member body 22. In one or more embodiments, the forcesrequired to disconnect couplings 24, 34 can be such that only apractitioner can remove the arch member 20.

The arch member 20 can provide a corrective force or forces to one ormore teeth of a patient through the anchors 30 to provide an orthodontictreatment or series of treatments to the teeth of a patient. The archmember body 22 of the arch member 20 can include any suitable materialor combination of materials that provide a wide range of materialproperties such as stiffness and resiliency. For example, the archmember body 22 can include metallic material, polymeric material, glassmaterial, and combinations thereof. In one or more embodiments, the archmember body 22 can include at least one of nitinol, stainless steel,nickel titanium, and beta titanium. The arch member body 22 can be aunitary body or can include one or more layers of materials. Further,the arch member body 22 can be unitary along its length. In one or moreembodiments, the arch member body 22 can include several portions thatare connected together using any suitable technique or combination oftechniques.

The arch member body 22 can also be individually configured based on theneeds of the practitioner. For example, a given arch member body 22 canbe made from stainless steel when a high level of corrective force isdesired, nickel titanium for a lower level of force, and beta titaniumfor an intermediate level of force. In one or more embodiments, the body22 can include other materials, including non-metallic materials such aspolymers or filled composites. Furthermore, the cross-sectional geometryof the body 22 can be tailored to provide the desired corrective forceor forces. For example, the shape and/or cross-sectional dimensions(e.g., thickness) of the body 22 can be tailored to provide the desiredcorrective force or forces. In one or more embodiments, the arch memberbody 22 can have a cross-sectional geometry that varies along a lengthof the body.

The arch member body 22 can include any suitable cross-sectionalgeometry, e.g., shape, area, orientation, etc. The cross-sectionalgeometry can be constant or vary along a length of the arch member body22. For example, the arch member body 22 can take any suitable shape orcombination of shapes. The arch member body 22 can also include anysuitable cross-sectional shape, e.g., polygonal (e.g., triangular,rectangular, etc.), elliptical, etc. The cross-sectional shape of thearch member body 22 can be uniform along a length of the body. In one ormore embodiments, a first portion of the arch member body 22 can have afirst cross-sectional shape, and a second portion of the arch memberbody can have a second cross-sectional shape that is different from thefirst cross-sectional shape. The arch member body 22 can include auniform cross-sectional area or a cross-sectional area that varies alongthe length of the body.

In one or more embodiments, the edges of the arch member body 22 can besmoothed after the body is formed to provide added comfort to a patient.Further, in one or more embodiments, one or more portions of the archmember body 22 can be coated with any suitable material or combinationof materials to provide a coating that covers edges of the body toimprove comfort. The arch member body 22 can also be covered with one ormore protective covers that are applied to the body in portions betweenarch member couplings 24 such that the body does not have sharp corners.The covers can include any suitable material or combination ofmaterials. In one or more embodiments, the covers can provide anydesired aesthetic appearance. Further, the covers can include stainresistant material or materials to maintain the aesthetics of thecovers.

The arch member body 22 can be adapted to provide any suitablecorrective force between two or more arch member couplings 24. Anysuitable technique or combination of techniques can be utilized toprovide these corrective forces. For example, as shown in FIG. 4, across-sectional geometry (e.g., area) of the arch member body 22 canvary along a length of the body. For example, first portion 50 of archmember body 22, which is disposed between arch member coupling 23 andarch member coupling 28, has a first cross-sectional geometry. Archmember body 22 also includes a second portion 52, which is disposedbetween arch member coupling 28 and arch member coupling 29, that has asecond cross-sectional geometry. In one or more embodiments, the firstcross-sectional geometry in first portion 50 is different from thesecond cross-sectional geometry in second portion 52.

The cross-sectional geometry of the arch member body 22 can vary in anysuitable plane or planes along the length of the body. In one or moreembodiments, a thickness of the arch member body 22 can be varied tochange the cross-sectional geometry of the body between any two anchorcouplings 24 (a portion of that section of the body or continuouslybetween). For example, in one or more embodiments, a thickness of thearch member body 22 can vary in a plane parallel to the mesio-distaldirection and orthogonal to a surface of a tooth when the arch member 20is connected to one or more teeth 12 of a patient via one or moreanchors 30 as shown in FIG. 1. In one or more embodiments, a thicknessof the arch member body 22 can vary in a plane orthogonal to thefacial-lingual or occlusal-gingival directions along the mesial-distallength of the arch member and parallel to a surface of a tooth when thearch member 20 is connected to one or more teeth 12 of a patient via oneor more anchors 30.

The cross-sectional geometry of the arch member body 22 can be selectedto provide a desired bending stiffness in one or more portions of thearch member body. Tailoring the bending stiffness of the arch memberbody 22 can provide selected corrective forces that can be varied alonga length of the arch member body. For example, in one or moreembodiments, the second portion 52 of arch member body 22 can provide asmaller corrective force than the first portion 50 because the secondportion has a cross-sectional area that is less than a cross-sectionalarea of the first portion 50. Although two portions 50, 52 of archmember body 22 are shown as having a varying cross-sectional geometryalong the length of the body, any suitable portion or portions of thearch member body can have a varying cross-sectional geometry to provideone or more corrective forces between arch member couplings 24 of thearch member 20.

Further, a shape of the arch member body 22 can be varied in anysuitable plane to provide one or more corrective forces between archmember couplings of the arch member. The arch member body 22 can takeany suitable shape or combination of shapes. For example, FIG. 5 is aschematic perspective view of a portion of another embodiment of an archmember 120. All of the design considerations and possibilities regardingarch member 20 of FIGS. 1-4 apply equally to arch member 120 of FIG. 5.Arch member 120 includes arch member body 122 and arch member couplings124 connected to the arch member body. The arch member body 122 includesa first nonlinear portion 150 between arch member couplings 123 and 128.Further, arch member body 122 includes a second nonlinear portion 152between arch member couplings 128 and 129. The first nonlinear portion150 can take a first shape that is the same as a second shape of thesecond nonlinear portion 152. In one or more embodiments, the firstshape can be different from the second shape. Any suitable shape orcombination of shapes can be formed in the arch member body 122. In oneor more embodiments, at least one of the first and second nonlinearportions 150, 152 can be, e.g., U-shaped, V-shaped, S-shaped,sinusoidal, etc. For example, the first nonlinear portion 150 can take asinusoidal shape that extends in at least one of the gingival, occlusal,mesial, and distal directions when the arch member 120 is connected toone or more teeth via anchors (e.g., anchors 30 of FIGS. 1-4).

The first nonlinear portion 150 and the second nonlinear portion 152 canextend in any direction or combination of directions. For example, inone or more embodiments, at least one of the first nonlinear portion 150and the second nonlinear portion 152 can extend in at least one of agingival, occlusal, labial, and lingual direction when the first andsecond anchors (e.g., anchors 40, 42 of FIG. 1) are connected to thesurfaces (e.g., surfaces 15, 17) of the first and second teeth (e.g.,first and second teeth 14, 16) and the first arch member coupling 123and the second arch member coupling 128 are connected to the anchorcoupling of the first anchor and the anchor coupling of the secondanchor respectively.

In one or more embodiments, the shape of the arch member body 122 canvary in a plane parallel to the mesio-distal direction and orthogonal toa surface of a tooth when the arch member 120 is connected to an anchorcoupling of one or more anchors (not shown) that are connected to one ormore teeth. In one or more embodiments, the shape of the arch memberbody 122 can vary in a plane orthogonal to the mesio-distal directionand parallel to a surface of the tooth. In one or more embodiments, thesecond nonlinear portion 152 can include an arcuate portion, e.g., asinusoidal portion such as spring 121. Any suitable spring orcombination of springs can be utilized. The spring 121 can be installedin a patient's mouth such that it is either in tension or compression toprovide the desired corrective force.

In one or more embodiments, the first nonlinear portion 150 can have afirst shape that is adapted to provide a first corrective force to oneor both teeth connected to arch member couplings 123 and 128. Further,the second nonlinear portion 152 can have a second shape that is adaptedto provide a second corrective force to one or both teeth that areattached to arch member couplings 128 and 129. The first correctiveforce can be the same as the second corrective force. In one or moreembodiments, the first corrective force is different from the secondcorrective force.

One or more portions of the arch member body 122 can include both avarying cross-sectional geometry and a nonlinear shape or shapes. Forexample, second nonlinear portion 152 can also include a cross-sectionalgeometry that varies along the length of the portion, e.g., a thicknessof the portion can vary along the spring 121.

Returning to FIGS. 1-4, one or more of the nonlinear portions, e.g.,nonlinear portions 50, 52 can be adapted to be spaced apart from thesurfaces 15, 17 of teeth that are connected to the appliance 10 byanchors 30. For example, as shown in FIG. 1, the first nonlinear portion50 of the arch member body 22, which is between the first arch membercoupling 23 and the second arch member coupling 28, can be adapted to bespaced apart from the surfaces 15, 17 of the first tooth 14 and thesecond tooth 16 when the first and second anchors 40, 42 are connectedto the surfaces of the first and second teeth and the first and secondarch member couplings 23, 28 are releasably connected to the anchorcouplings of the first and second anchors 40, 42. The first nonlinearportion 50 can be spaced apart from the surfaces 15, 17 of the first andsecond teeth 14, 16 any suitable distance 2. The first nonlinear portion50 can be spaced apart the same distance from each of the surfaces 15,17 of the first and second teeth 14, 16. In one or more embodiments, thefirst nonlinear portion 50 can be spaced apart a distance from thesurface 15 of the first tooth 14 that is different from the distancebetween the first nonlinear portion and the surface 17 of the secondtooth 16. Any suitable number of portions of the arch member body 22 canbe spaced apart from surfaces of the teeth to which the appliance 10 isconnected. In one or more embodiments, the entire arch member body 22 isspaced apart from the connected surfaces of the teeth 12. In one or moreembodiments, one or more portions of the arch member body 22 can be incontact with one or more teeth while one or more portions of the archmember body can be spaced apart from additional teeth.

One or both of the arch member 20 and the anchors 30 can include otherdevices or elements that can be utilized to provide a selected treatmentto a patient. For example, in one or more embodiments, the selectedshape of a nonlinear portion between two arch member couplings 24 caninclude at least one of a hook, a twist, a step, a loop, and a spring.For example, the arch member body 22 can include one or more flexiblesprings (e.g., spring 121 of FIG. 5) that allows longitudinal movement(i.e., in a direction generally along the length of the arch memberbody). The spring can be integral to the arch member body 22 or madeseparately from the body and connected to the body using any suitabletechnique or combination of techniques. The spring can also increase theflexibility of the arch member body 22. In one or more embodiments, thespring can be resilient and can deliver tensile or compressive forces inthe longitudinal direction. Various types of springs may be used,including Z-springs, coil springs, omega loops, pushrods, or anycombinations thereof. By increasing flexibility of the arch member body22 and allowing longitudinal deflection, the springs can facilitateconnecting the arch member couplings 24 and the anchor couplings 34 whenthe teeth are maloccluded. Based on the patient's treatment plan, thesprings may be provided along any suitable portion or portions of thearch member body 22. The arch member 24 can include one or more tabsthat can be adapted to engage at least one of the anchors 30 to maintaina connection between the arch member coupling 24 and the anchor coupling34.

The arch member body 22 can be manufactured using any suitable techniqueor combination of techniques. In one or more embodiments, the archmember body 22 can be formed from a substrate, e.g., a sheet ofmaterial, by removing a portion or portions of the substrate. Forexample, a nitinol substrate can be cut or etched to form the archmember body 22. Any suitable technique or combination of techniques canbe utilized to cut or etch the substrate, e.g., laser cutting, water jetcutting, etching (e.g., ion beam etching), die cutting, etc.

The arch member body 22 can be formed into any suitable shape orcombination of shapes using any suitable technique or combinations oftechniques. For example, the shape of the arch member body 22 can beformed when the arch member is cut or etched from a sheet of material.In one or more embodiments, the arch member body 22 can be formed andthen shaped into one or more shapes using any suitable technique orcombination of techniques, e.g., bending, machining, etc. The one ormore shapes of the arch member body 22 can be set using any suitabletechnique or combination of techniques, e.g., heat setting.

As mentioned herein, the arch member body 22 can have any suitablecross-sectional geometry along the length of the body. In one or moreembodiments, the arch member body 22 can have a thickness in an occlusaldirection that varies along a length of the arch member body 22 when thearch member body is connected to one or more anchors 30 of the appliance10. Varying the thickness of the arch member body 22 can provide controlof corrective forces that are applied to one or more teeth. Thisthickness can be varied using any suitable technique or combination oftechniques. In one or more embodiments, the thickness can be varied byremoving portions of the arch member body 22 by ablating, etching,sanding, cutting, etc. The arch member body 22 can also be elongated inone or more portions to reduce the thickness in such portions.

In one or more embodiments, anchors 30 can be accurately placed andbonded in precise, pre-selected positions on the tooth surfaces of apatient (e.g., the lingual surfaces). To this end, it can beadvantageous to use indirect techniques such as those described in U.S.Pat. No. 7,020,963 (Cleary et al.) and U.S. Pat. No. 7,404,714 (Clearyet al.), and U.S. Patent Publication No. 2006/0177791 (Cinader et al.).

The appliance 10 can be capable of producing various types of toothmovement. The configuration of the arch member body 22 and the anchorcouplings 34 of anchors 30, and the displacement of the arch member body(e.g., by deformation of the arch member body) relative to the anchorcan allow appliance 10 to move teeth in ways that can be difficult toachieve using conventional aligners and wire-embedded appliances.Because one or more portions of the arch member body 22 can be formedinto a variety of configurations, the appliance 10 has the potential toproduce any combination of in-out and mesial-distal tooth movements, aswell as tipping and rotational tooth movements. Translational toothmovements parallel to the longitudinal axis of the arch member body 22can be performed by incorporating one or more flexible springs into thearch member body or by forming one or more springs in the arch memberbody.

The orthodontic appliance 10 can be manufactured using any suitabletechnique or combination of techniques. For example, in one or moreembodiments, one or both of the arch member 20 and the anchor 30 can bemanufactured using rapid manufacturing techniques. In one or moreembodiments, the anchor coupling 34 and the arch member coupling 24 canbe chosen from a standard library either by the manufacturer or apractitioner. Similarly, the arch member body 22 can be selected from astandard library and modified to meet the treatment targets of thepractitioner. The tooth position targets for each stage of treatment canbe suggested by software or by a technician and modified by thepractitioner as necessary. During treatment, one or more of the toothposition targets can be generated from the information contained in anintermediate scan of the teeth, e.g., as described in co-owned U.S.Patent Application Publication No. 2010/0260405 (Cinader et al.).Subsequent appliances can be produced on an as-needed basis rather thanproducing the entire series of appliances at the outset of treatment. Inone or more embodiments, the practitioner can fabricate the applianceentirely in the practitioner's office. This can give the practitionermore flexibility to adjust the appliance as the treatment progresses.

In one or more embodiments, one or both of the arch member 20 and theanchor 30 can be manufactured using 3D printing technology. For example,one or more data files can be selected by a practitioner that can thenproduce the orthodontic appliance 10 using 3D printing technology.

The arch member coupling 24 and the anchor coupling 34 can be designedin any suitable manner such that the arch member coupling is releasablyconnectable to the anchor coupling. For example, FIGS. 6-7 are schematicperspective views of a portion of another embodiment of an orthodonticappliance 200. All of the design considerations and possibilitiesregarding the orthodontic appliance 10 of FIGS. 1-4 apply equally to theappliance 200 of FIGS. 6-7. The appliance 200 includes an arch member220 that includes an arch member body 222 and one or more arch membercouplings 224 connected to the body. In one or more embodiments, thearch member coupling 224 can be integral with the arch member body 222.The one or more arch member couplings 224 can include a slotted portion226 of the arch member body 222. The slotted portion 226 can take anysuitable shape or combination of shapes and can be any suitabledimensions. In one or more embodiments, the slotted portion 226 can beformed using any suitable technique or combination of techniques. Forexample, in one or more embodiments, the slotted portion 226 can beformed when the arch member body 222 is formed using any suitabletechnique or combination of techniques. In one or more embodiments, theslotted portion 226 can be formed after the arch member body 222 isformed, e.g., the arch member body can be cut or etched to form theslotted portion. In one or more embodiments, the slotted portion 226 isresilient.

The appliance 200 also includes one or more anchors 230 that can eachinclude an anchor coupling 234 and a base 232 adapted to connect theanchor to a surface 214 of a tooth 212. One or more anchor couplings 234can include a post 236 that extends from the base 232 and is adapted toreceive the slotted portion 226 of the arch member body 222. In one ormore embodiments, the arch member coupling 224 is releasably connectableto the anchor coupling 234.

The anchor 230 can include an anchor coupling 234 that can take anysuitable shape or combination of shapes and have any suitabledimensions. In the embodiment illustrated in FIGS. 6-7, the anchorcoupling 234 includes the post 236 that extends from the base 232 of theanchor 230. The post 236 can take any suitable shape or combination ofshapes. In the illustrated embodiment, the post 236 includes acylindrical shape that is adapted to engage the slotted portion 226 ofthe arch member coupling 224. In one or more embodiments, the anchorcoupling 234 can have any suitable cross-sectional shape and dimension.For example, in one or more embodiments, the anchor coupling 234 canhave a polygonal, elliptical, or frusto-conical cross-sectional shape.The anchor coupling 234 can have a constant cross-sectional shape andsize along a length of the anchor coupling that extends from the base232 of the anchor 230. In one or more embodiments, the anchor coupling234 can have a cross-sectional shape that varies along the length of theanchor coupling.

In one or more embodiments, the post 236 of the anchor coupling 234 caninclude an undercut portion or portions 237 that retain the slottedportion 226 of the arch member body 222 such that it remains engagedwith the post 236. The post 236 can include any suitable dimensions andtake any suitable shape or combination of shapes. In one or moreembodiments, the post 236 can have a cross-sectional area in a directionorthogonal to a surface 214 of a tooth 212 that is greater than a widthof the slotted portion 226 of the arch member body 222 such that theslotted portion expands when the post is inserted into the slottedportion. The arch member 220 can be connected to the anchor 230 bypressing the arch member in a gingival direction such that the post 236is inserted into the slotted portion 226.

In one or more embodiments, the post 236 can extend from the base 232along an axis that is normal to the base such that the arch member 220can be connected to the anchor 230 by pressing the arch member onto thepost in a distal direction. Further, the post 236 can be formed in theanchor 230 or manufactured separately and attached to the base 232 ofthe anchor. The post 236 can be attached directly to the base 232. Inone or more embodiments, the post 236 can be inserted into a recess 239of the anchor 230. In one or more embodiments, the recess 239 can beadapted to allow for adjustment of the post 236 to provide one or moreselected corrective forces to the connected tooth 212. In one or moreembodiments, an orientation of the post 236 of one or more anchors 230can be adjusted at one or more stages of treatment. In one or moreembodiments, an orientation of the post 236 of one or more anchors canbe fixed throughout various stages of treatment.

The anchors 230 can be shaped such that any suitable corrective force orforces can be applied to the attached tooth. For example, in one or moreembodiments, the post 236 can be formed or disposed on the base 232 suchthat it extends along an axis that forms any suitable angle with anormal vector to the tooth surface 214 in a plane orthogonal to theocclusal plane. By selecting the appropriate angle, a corrective forcecan be applied by the arch member 220 to the tooth that can correct fortorque of the attached tooth. In one or more embodiments, the axis alongwhich the post 236 extends can be formed or disposed such that it formsan angle with a normal to the tooth surface in a plane parallel to themesio-distal direction. By selecting the appropriate angle, a correctiveforce can be applied by the arch member 220 to the tooth that cancorrect for a rotation of the tooth 212. In one or more embodiments, thepost 236 can be formed or disposed such that it forms an angle with bothof these planes to provide a corrective force that can correct both anangulation and a rotation of the tooth 212. In one or more embodiments,the anchor coupling 234 can be adapted to provide at least one of aselected torque, rotation, and angulation to the tooth when the archmember coupling 224 is connected to the anchor coupling of the anchor230 and the anchor is connected to the tooth 212.

For example, FIG. 7 is a schematic perspective view of anchor 230 of theappliance 200 of FIG. 6. The post 236 of anchor 230 has been disposedwithin the recess 239 of anchor 230 such that an axis 231 that extendsalong a width of the post forms an angle 208 with the mesio-distaldirection 202. Any suitable angle can be formed between the axis 231 andthe mesio-distal direction 202. When connected to the arch member 220,the rotation of the post 236 can provide a corrective force that cancorrect for angulation of the tooth 212.

FIG. 8 is a schematic perspective view of a portion of anotherembodiment of an orthodontic appliance 300. All of the designconsiderations and possibilities regarding the orthodontic appliance 10of FIGS. 1-4 apply equally to the orthodontic appliance 300 of FIG. 8.Orthodontic appliance 300 includes an arch member 320 that includes anarch member body 322 and one or more arch member couplings 324 connectedto the body. The appliance 300 also includes one or more anchors 330that each include an anchor coupling 334 and a base 332 adapted toconnect the anchor to a surface of a tooth, e.g., a lingual surface. Inone or more embodiments, the arch member coupling 324 is releasablyconnectable to the anchor coupling 334.

The anchor coupling 334 includes a slot 336 that is adapted to receivethe arch member coupling 324 of the arch member 320. The slot 336 cantake any suitable shape or combination of shapes. The arch membercoupling 324 can include a slotted portion 326 that is adapted to beinserted into the slot 336 of the anchor coupling 334. In one or moreembodiments, the slotted portion 326 is resilient such that it can becompressed within the slot 336 of the anchor 330 and retained therein.The arch member coupling 324 can also include one or more tabs 328 thatare adapted to be received by the slot 336 of the anchor coupling 334.The tabs 328 can engage the slot 336 of the anchor coupling 334 suchthat the arch member 320 can provide, e.g., angulation to a toothattached to the anchor 330.

One difference between the arch member 320 and arch member 20 of FIGS.1-4 is that the body 322 includes one or more nonlinear (e.g., arcuate)portions that, in the illustrated embodiment, are V-shaped portions 323that provide a spring-like effect to the arch member 320 and aresubstantially offset in a gingival direction from the anchors. Anysuitable number of V-shaped portions can be formed between arch membercouplings 324. In one or more embodiments, the V-shaped portions 323 canlie in a plane that is substantially parallel to a surface of a tooththat is connected to the arch member 320. As used herein, the term“substantially parallel” means that the V-shaped portions 323 (orU-shaped portions 523 below) lie in a plane that forms an angle with thesurface of the one or more teeth that are connected to the appliancethat is no greater than about 10 degrees. The V-shaped portions 323 canprovide any suitable corrective force to one or more teeth that areattached to the arch member 320. The arch member 320 can be connected tothe one or more anchors 330 such that the arch member is either intension or compression, e.g., as is described herein regarding spring121 of arch member 120 of FIG. 5.

Although not shown, one or more portions of the arch member 320 caninclude different geometries between arch member couplings 324 toprovide one or more corrective forces that are different from thecorrective forces provided by the V-shaped portions 323. Further, across-sectional geometry of the arch member body 322 can vary along thelength of the arch member body in any suitable portion or portions,e.g., the portions of the body that include V-shaped portions 323. Inone or more embodiments, a medial-distal distance between one or morearch member couplings 324 can be selected such that the V-shaped portion323 has a selected apex angle.

The arch member 320 can be connected to the anchor 330 by pressing thearch member coupling 324 into the slotted portion 336 of the anchorcoupling 334, thereby compressing the resilient slotted portion 326 ofthe arch member coupling against sides of the recessed portion. The archmember coupling 324, therefore, is friction-fit within the recessedportion 336 of the anchor coupling 334. The anchor coupling 334 can alsoinclude overhanging portions that can engage the arch member coupling324 when the arch member coupling 324 is disposed within the recessedportion 336.

Any suitable couplings 324, 334 can be utilized with arch member 320such that the arch member coupling is releasably connectable to theanchor coupling. For example, FIG. 9 is a schematic perspective view ofa portion of another embodiment of an appliance 400. All of the designconsiderations and possibilities regarding the appliance 10 of FIGS. 1-4and appliance 300 of FIG. 8 apply equally to the appliance 400 of FIG.9. The appliance 400 includes an arch member 420 including an archmember body 422, and one or more arch member couplings 424 connected tothe body. In one or more embodiments, one or more arch member couplings424 can be integral with the arch member body 422. Further, in one ormore embodiments, a cross-sectional geometry of the body 422 can varyalong the length of the body. The appliance 400 can also include one ormore anchors 430 each including an anchor coupling 434 and a base 432adapted to connect the anchor to a surface of a tooth (not shown). Inone or more embodiments, the arch member coupling 424 is releasablyconnectable to the anchor coupling 434. The anchor coupling 434 can alsoinclude overhanging portions that can engage the arch member coupling424 when the arch member coupling 424 is connected to the anchorcoupling.

One difference between appliance 400 and appliance 300 is that theanchor 430 includes a post 436 having one or more recessed portions 437formed in the post to receive a slotted portion 426 of the arch membercoupling 424. The slotted portion 426 is adapted to engage the post 436of the anchor 430. In one or more embodiments, the arch member coupling424 can also include tabs 428 that can include any suitable shape orcombination of shapes. The tabs 428 can assist the practitioner inconnecting and disconnecting the arch member 420 from the one or moreanchors 430.

To connect the arch member 420 to the anchor 430, the anchor coupling424 is pressed against the post 436 of the anchor coupling 434 such theslotted portion 426 expands over the post. As the slotted portion 426engages the recessed portion 437 of the anchor 430, the slotted portioncontracts against a surface or surfaces of the recessed portion. Thearch member coupling 424 is, therefore, friction-fit against the anchorcoupling 434.

FIG. 10 is a schematic perspective view of a portion of anotherembodiment of an appliance 500. All of the design considerations andpossibilities regarding the appliance 10 of FIGS. 1-4 and the appliance300 of FIG. 8 apply equally to the appliance 500 of FIG. 10. Theappliance 500 includes an arch member 520 including an arch member body522, and one or more arch member couplings 524 connected to the body. Inone or more embodiments, one or more arch member couplings 524 can beintegral with the arch member body 522. Further, in one or moreembodiments, a cross-sectional geometry of the body 522 can vary alongthe length of the body. The appliance 500 can also include one or moreanchors 530 including an anchor coupling 534 and a base 532 adapted toconnect the anchor to a surface of a tooth (not shown). In one or moreembodiments, the arch member coupling 524 is releasably connectable tothe anchor coupling 534.

One difference between appliance 500 and appliance 300 is that the body522 of the arch member 520 includes one or more U-shaped portions 523.The U-shaped portions 523 can take any suitable shape or combination ofshapes. Further, the U-shaped portions 523 can extend or lie within anyplane or planes. In one or more embodiments, the U-shaped portions 523lie in a plane that is substantially parallel to a surface of one ormore teeth of a patient when the appliance is connected to the one ormore teeth. The body 522 can include any suitable number of U-shapedportions 523 between each arch member coupling 524.

Another difference between appliances 500 and 300 is that the one ormore arch member couplings 524 include one or more tabs 526 that areadapted to couple with one or more anchors 530. For example, in one ormore embodiments, the anchor coupling 534 can include a slot 536. Theslot 536 can take any suitable shape or combination of shapes. In one ormore embodiments, the slot 536 is adapted to one or more receive tabs526 of arch member coupling 524.

The arch member 520 can be attached or connected to one or more anchors530 by pressing the arch member coupling 524 into the slot 536 of theanchor coupling 534 such that the tabs 526 engage the slot. One or moretabs 526 of arch member coupling 524 can also include a barb 527 of anysuitable shape that engages the slot 536 of the anchor coupling 534 andretains the arch member 520 in a connected relationship with the anchor530. Further, in one or more embodiments, at least one tab 526 can bebent around a portion of the slot 536 such that the arch member 520remains connected to the anchor 530.

In one or more embodiments, the arch member coupling 524 can alsoinclude an opening 529 that is adapted to engage a tool that thepractitioner can use to connect and/or disconnect the arch membercoupling 524 to the anchor coupling in one or more embodiments, theanchor 530 can also include a recess (not shown) that can be alignedwith the opening 529 of the arch member coupling 524 when the couplingsare connected. The practitioner can insert a tool into the opening 529of the arch member coupling 524 and the recess of the anchor 530 andlift the arch member coupling away from the anchor coupling 534 usingthe tool as a lever.

Although not shown, one or more portions of the arch member 520 caninclude different geometries between arch member couplings 524 toprovide one or more corrective forces that are different from thecorrective forces provided by the U-shaped portions 523. Further, across-sectional area of the arch member body 522 can vary along thelength of the arch member body in any suitable portion or portions ofthe body, e.g., portions of the body that include U-shaped portions 523.

FIG. 11 is a schematic perspective view of a portion of anotherembodiment of an orthodontic appliance 600. All of the designconsiderations and possibilities regarding the orthodontic appliance 10of FIGS. 1-4 and the orthodontic appliance 300 of FIG. 8 apply equallyto the orthodontic appliance 600 of FIG. 11. The appliance 600 includesan arch member 620 including an arch member body 622, and one or morearch member couplings 624 connected to the body. In one or moreembodiments, one or more arch member couplings 624 can be integral withthe arch member body 622. Further, in one or more embodiments, across-sectional geometry of the body 622 can vary along the length ofthe body. The appliance 600 can also include one or more anchors 630each including an anchor coupling 634 and a base 632 adapted to connectthe anchor to a surface of a tooth (not shown). In one or moreembodiments, the arch member coupling 624 is releasably connectable tothe anchor coupling 634.

One difference between the appliance 600 of FIG. 11 and appliance 300 ofFIG. 8 is that the arch member coupling 624 includes one or moreresilient fingers 626. Any suitable number of resilient fingers 626 canbe formed in or attached to arch member body 622. The resilient fingers626 are adapted to releasably connect the arch member coupling 624 tothe anchor coupling 634 of the anchor 630. In the illustratedembodiment, the anchor coupling 634 includes a post 636 that extendsfrom the base 632 of the anchor 630. The post 636 can take any suitableshape or combination of shapes. In one or more embodiments, the post 636can include one or more recessed portions 637 that are adapted toreceive the flexible fingers 626 of the arch member coupling 624.

Another difference between appliance 600 and appliance 300 is that thearch member 620 includes one or more S-shaped portions 623 that canprovide any suitable corrective force or forces to one or more teeththat are connected to the arch member. Also, unlike arch members 420 and520, the nonlinear S-shaped portions 623 do not substantially extendbeyond the occlusal and gingival edge regions of arch member couplings624. The arch member 620 can, however, include any suitable number ofS-shaped portions between arch member couplings 624. In one or moreembodiments, the arch member 620 can be connected to one or more anchors630 such that the S-shaped portions are either in tension or compressionas described, e.g., regarding spring 121 of FIG. 5. Although not shown,one or more portions of the arch member 620 can include differentgeometries between arch member couplings 624 to provide one or morecorrective forces that are different from the corrective forces providedby the S-shaped portions 623. Further, a cross-sectional geometry of thearch member body 622 can vary along the length of the arch member bodyin any suitable portion or portions of the body, e.g., portions thatinclude 5-shaped portions 623.

To couple the arch member 620 to the anchor 630, the arch membercoupling 624 can be pressed against the anchor coupling 634 such thatthe resilient fingers 626 are displaced around the post 636. The fingers626 can engage the recessed portion 637 of the post 636 to keep the archmember 620 connected to the anchor 630. Further, in one or moreembodiments, the fingers 626 can also provide a corrective force to theattached tooth, e.g., a rotational force.

FIGS. 12-13 are schematic perspective views of a portion of anotherembodiment of an orthodontic appliance 700. All of the designconsiderations and possibilities regarding the orthodontic appliance 10of FIGS. 1-4 and the orthodontic appliance 300 of FIG. 8 apply equallyto appliance 700 of FIGS. 12-13. The appliance 700 includes an archmember 720 including an arch member body 722, and one or more archmember couplings 724 connected to the body. In one or more embodiments,one or more arch member couplings 724 can be integral with the archmember body 722. Further, in one or more embodiments, a cross-sectionalgeometry of the body 722 can vary along the length of the body. Theappliance 700 can also include one or more anchors 730 including ananchor coupling 734 and a base 732 adapted to connect the anchor to asurface of a tooth (not shown). In one or more embodiments, the archmember coupling 724 is releasably connectable to the anchor coupling734.

One difference between appliance 700 of FIGS. 12-13 and appliance 10 ofFIGS. 1-4 is that the arch member coupling 724 includes one or moreresilient tabs 726 are adapted to engage a post 736 of anchor 730 thatextends from the base 732 of the anchor. The post 736 can also includeone or more recessed portions 737 that are adapted to engage the tabs726 of the arch member coupling 724.

To connect the arch member 720 to the anchor 730, the arch membercoupling 724 is pressed against the post 736 of the anchor coupling 734such that the resilient tabs 726 of the arch member coupling aredeflected and engage the surface of the post until the tabs reach therecessed portions 737. Once the tabs 726 engage the recessed portions737, the arch member coupling 724 is releasably connected to the anchorcoupling 734.

FIGS. 14-15 are schematic perspective views of a portion of anotherembodiment of an orthodontic appliance 800. All of the designconsiderations and possibilities regarding the orthodontic appliance 10of FIGS. 1-4 and the orthodontic appliance 300 of FIG. 8 apply equallyto appliance 800 of FIGS. 14-15. The appliance 800 includes an archmember 820 including an arch member body 822, and one or more archmember couplings 824 connected to the body. In one or more embodiments,one or more arch member couplings 824 can be integral with the archmember body 822. Further, in one or more embodiments, a cross-sectionalgeometry of the body 822 can vary along the length of the body. Theappliance 800 can also include one or more anchors 830 including ananchor coupling 834 and a base 832 adapted to connect the anchor to asurface of a tooth (not shown). In one or more embodiments, the archmember coupling 824 is releasably connectable to the anchor coupling834.

One difference between appliance 800 of FIGS. 14-15 and appliance 10 ofFIGS. 1-4 is that the anchor coupling 834 includes at least one clip 840adjacent a post 836 that extends from the base 832 of the anchor, withthe clip(s) 840 adapted to engage a slot 826 of the arch member coupling824. The anchor 830 includes a pair of clips 840 in the embodimentdepicted in FIGS. 14 and 15. Each clip 840 includes a pair of armportions 842, 844 that can extend in generally labial-lingual (FIG. 14)or occlusal-gingival (FIG. 15) directions and then bend outwardly awayfrom each other. A protrusion 838 on each of the mesial and distal facesof the post 836 extend through the clips 840, thereby retaining theclips 840 on the anchor 830.

Using a dual clip configuration can provide improved stability overusing a single clip by leveraging two engagement points per clip oneither side of the arch member coupling 824. Having a plurality ofengagement points helps prevent the arch member 820 from rotating aboutthe post 836, thereby resulting in a more secure coupling.

The clips 840 are shown in their normal, relaxed orientations in FIGS.14 and 15. However, the arm portions 842 of each clip 840 are movabletowards each other in order to engage and be received in the slot 826when so desired. The smooth, outer edge of the arm portions 842, 844enables each clip 840 to engage an arch member by pressing the archmember coupling slot 826 against the outer curved edges of the armportions 842, 844. As pressure is exerted by the arch member coupling824 on the curved edges, the arm portions 842, 844 deflect towards eachother in order to admit the clips 840 into the slot 826.

Once the arm portions 842, 844 extend through the slot 826, they willdeflect away from one another and return the clip 840 to its relaxedconfiguration. Once an arm portion of the clip 840 engages the walls ofthe slot 826, the arch member coupling 824 is releasably connected tothe anchor coupling 834. In one or more embodiments, the width of theclip 840 in the area between arm portions 842, 844 and protrusionreceiving region 846 is greater than or equal to a width of the slot826. In such embodiments, the clip 840 may apply sufficient expansionaryforce to the arch member coupling 824 to prevent movement of the archmember body 820 in directions along the longitudinal axis of the archmember 822. Optionally, inner surfaces of the clips 840 may be roughenedor knurled or provided with serrations, grooves or other structure tofacilitate a secure, non-sliding connection between the clips 840 andthe arch member 820.

To remove the arch member 820 from the anchor 830, the practitioner cancompress the arm portion 842, 844 together using a suitable handinstrument, and may slide the arch member coupling 824 along thecompressed clip 840.

Optionally, each of the clips 840 is cut from a flat section of metallicstock material. Suitable metallic materials include shape memory alloyssuch as alloys of nitinol and beta-titanium. The clips 840 may be cutfrom the stock material using a stamping, die cutting, chemical etching,EDM (electrical discharge machining), laser cutting or water jet cuttingprocess. As another option, each clip 840 could be formed and thenheat-treated to set its shape. Other suitable clip features are given inissued U.S. Pat. No. 7,252,505 (Lai) and U.S. Pat. No. 7,367,800 (Lai etal.).

In general, the various embodiments of arch members and anchors can beused interchangeably to provide selected treatments. For example, in oneexemplary embodiment, one or more teeth of a patient may be connected toanchors 230 of appliance 200 illustrated in FIGS. 6-7, with the anchorscoupled to an arch member that includes couplings 224, and one or moreadditional teeth may be connected to anchors 30 of the appliance 10illustrated in FIGS. 1-4, with the anchors coupled to one or morecouplings 24 four or connected to the same arch member. In one or moreembodiments, different embodiments of appliances can be used fordifferent phases of treatment. For example, the appliance 300 of FIG. 8may be utilized in an early treatment phase, and the appliance 10 ofFIGS. 1-4 may be utilized in a later treatment phase of the samepatient.

The various embodiments of orthodontic appliances of the presentdisclosure can be utilized with any suitable orthodontic treatmentsystem. For example, in one or more embodiments, an orthodontictreatment system can include an orthodontic appliance, e.g., orthodonticappliance 10. The orthodontic appliance can include a set of archmembers (e.g., arch member 20 of FIGS. 1-4). Each arch member 20 caninclude an arch member body 22 and an arch member coupling 24 connectedto the body. The appliance can also include a set of anchors (e.g.,anchor 30 of FIGS. 1-3) that are adapted to connect to respective teethof a patient's dental arch. Each anchor 30 can include an anchorcoupling 34 and a base 32 adapted to connect the anchor to a surface ofthe tooth. Each arch member coupling can be releasably connectable tothe anchor coupling of an anchor of the set of anchors.

In one or more embodiments, a first arch member of the set of archmembers can have a geometry (e.g., shape, cross-sectional area, etc.)selected to move at least one tooth from a first arrangement to a secondarrangement. Further, in one or more embodiments, a second arch memberof the set of arch members can have a geometry (e.g., shape,cross-sectional area, etc.) selected to move at least one tooth from thesecond arrangement to a third arrangement.

The various embodiments of orthodontic appliances described herein canbe utilized with any suitable additional appliances. For example in oneor more embodiments, orthodontic appliance 10 of FIGS. 1-4 can beutilized with one or more brackets, buccal tubes, bands, cleats,buttons, removable appliances (including aligner trays), palatalexpanders, and combinations thereof. One or more additional appliancescan be adapted to be connected to an orthodontic appliance (e.g.,appliance 10 of FIGS. 1-4). For example, a palatal expander can beadapted to be connected to an orthodontic appliance using any techniqueor combination of techniques. In one or more embodiments, one or moreadditional appliances can be used simultaneously with one or moreappliances but not be connected to such appliance.

The various embodiments of orthodontic appliances described herein canbe manufactured using any suitable technique or combination oftechniques, e.g., the techniques described in U.S. Patent ApplicationPublication No. 2010/0260405 (Cinader, Jr.) and U.S. Provisional PatentApplication Ser. No. 62/097,733 (Attorney Docket No. 75174US002). Inreference to orthodontic appliance 10 of FIGS. 1-4, one exemplarytechnique includes providing a physical dental model of a patient'steeth that can be used to form the appliance 10. The configuration ofthe dental model can represent a target dental arrangement as perceivedby the treating professional. As defined herein, the “target dentalarrangement” may be a patient's current dental arrangement, a desiredfinal dental arrangement, or a predicted intermediate dentalarrangement, depending on the application contemplated by the treatingprofessional. In one or more embodiments, the target dental arrangementcan also include a desired arrangement of one or more anchor couplings.

If the target dental arrangement is defined as the patient's currentdental arrangement, then the dental model can be provided, for example,from an epoxy resin or stone casting prepared from an alginate,polyvinylsiloxane, or polyether impression of a patient's dentition. Ifthe target dental arrangement is defined as an intermediate or finaldental arrangement, then this casting may be sectioned into individualmodel tooth elements, and the tooth elements can be rearranged to formthe desired dental arrangement. Further, the tooth elements can be waxedback together to provide the dental model. In one or more embodiments,the dental model can also be a reconfigurable dental model, therebyallowing individual teeth to be rearranged without sectioning. Examplesof reconfigurable dental models are described, e.g., in U.S. Pat. No.6,227,851 (Chishti et al.) and U.S. Pat. No. 6,394,801 (Chishti et al.).

The dental model can be used as a template to make and configure theorthodontic appliance 10. The anchors 30 can be connected to therespective lingual and/or labial tooth surfaces of the dental model. Thearch member 20 can be formed into a desired configuration using anysuitable technique or combination of techniques such that the archmember couplings 24 are releasably connectable to the anchor couplings34 of anchors 30. In one or more embodiments, the arch member body 22can be formed by extrusion and then shaped using known techniques. Inone or more embodiments, the arch member body 22 can be formed bycutting, stamping, or etching a substrate. In one or more embodiments, apolymeric material can be thermoformed or cast to provide an arch memberbody 22, and one or more arch member couplings 24 can be connected tothe arch member body. In one or more embodiments, the arch member body22 can be formed using 3D printing techniques.

Once the arch member body 22 is formed, the arch member couplings 24 canbe disposed along the arch member body such that the arch membercouplings are connected to the arch member body. In one or moreembodiments where the arch member couplings 24 are formed along with thearch member body 22 (e.g., arch member body 320 of FIGS. 7-8), the archmember couplings can be formed by slitting or etching one or more slotsin the arch member body. In one or more embodiments, the slots can bedisposed in the arch member body 22 during thermoforming or casting ofthe arch member 20.

To use the appliance 10, the anchors 30 are transferred from the dentalmodel to the patient's teeth. To preserve the precise locations of theanchors 30 relative to the respective teeth, an indirect bonding tray orother transfer apparatus can be utilized. If the anchors 30 arecustomized to the lingual surfaces of the patient's teeth and therebyself-positioning, direct bonding may be a viable alternative. The archmember 20 can be placed in the patient's mouth and releasably connectedto the anchors 30 via the arch member couplings 24.

By performing operations in a virtual world, it is also possible for oneor more of these steps to be consolidated or even eliminated. Variousdigital techniques can potentially improve the precision of appliancedesign and facilitate aspects of the fabrication process that aretraditionally done by hand.

One exemplary technique is digital scanning. A virtual dental modelrepresenting the patient's dental structure can be captured using adigital intraoral scan or by digitally scanning an impression or dentalmodel. The digital images may be provided using a hand-held intra-oralscanner such as the intra-oral scanner using active wavefront samplingdeveloped by Brontes Technologies, Inc. (Lexington, Mass.) anddescribed, e.g., in PCT Publication No. WO 2007/084727 (Boerjes et al.).In one or more embodiments, other intra-oral scanners or intra-oralcontact probes may be used. As another option, the digital structuredata may be provided by scanning a negative impression of the patient'steeth. As still another option, the digital structure data may beprovided by imaging a positive physical model of the patient's teeth orby using a contact probe on a model of the patient's teeth. The modelused for scanning may be made, for example, by casting an impression ofa patient's dentition from a suitable impression material such asalginate or polyvinylsiloxane (PVS), pouring a casting material (such asorthodontic stone or epoxy resin) into the impression, and allowing thecasting material to cure. Any suitable scanning technique may be usedfor scanning the model, including X-ray radiography, laser scanning,computed tomography (CT), magnetic resonance imaging (MRI), andultrasound imaging. Other possible scanning methods are described, e.g.,in U.S. Patent Application Publication No. 2007/0031791 (Cinader etal.).

From there, it is possible for a treating professional to manipulate thevirtual dental model on a computer, for example, to arrive at the targetdental arrangement. Further details on software and processes that maybe used to derive the target dental arrangement are disclosed, e.g., inU.S. Pat. No. 6,739,870 (Lai et al.), U.S. Pat. No. 8,194,067 (Raby etal.), U.S. Pat. No. 7,291,011 (Stark et al.), U.S. Pat. No. 7,354,268(Raby et al.), U.S. Pat. No. 7,869,983 (Raby et al.) and U.S. Pat. No.7,726,968 (Raby et al.).

Another digital technique that can facilitate preparation of the dentalmodel is rapid prototyping. After a virtual dental model has beencreated using any of the above techniques, rapid prototyping techniquescan allow the dental model to be directly fabricated from this virtualdental model. Advantageously, there is no need to take an alginateimpression or cast a stone model. Examples of rapid prototypingtechniques include, but are not limited to, three-dimensional (3D)printing, selective area laser deposition or selective laser sintering(SLS), electrophoretic deposition, robocasting, fused depositionmodeling (FDM), laminated object manufacturing (LOM), stereolithography(SLA) and photostereolithography. These and other methods of forming apositive dental model from scanned digital data are disclosed, e.g., inU.S. Pat. No. 8,535,580 (Cinader).

In one or more embodiments, the anchors 30 can be connected to thepatient's teeth prior to taking an impression or intraoral scan. Sincethe anchors 30 can be directly bonded to the patient's teeth, this cansimplify the process by eliminating the need to bond the anchors to thephysical dental model, as well as the need to transfer the anchors tothe patient's teeth. As before, the manipulation of the dental modelfrom the maloccluded dental arrangement to the target dental arrangementmay be carried out on a computer. There are other potential benefits.For example, if the anchors 30 and the patient's teeth are capturedtogether in an intraoral scan, it is possible to digitally configurearch member 20 using a wire bending apparatus or robot based on therelative locations of the anchors and the patient's teeth.

Rapid prototyping may even eliminate the need to provide a physicaldental model for fabricating the appliance 10. While it has been shownthat rapid prototyping can be used to fabricate a dental model, it isalso conceivable that rapid prototyping could be used to directlyfabricate at least a portion of the appliance 10. The configuration ofthe arch member body 22, the anchors 30, and the couplings 24, 34 can becarried out with the assistance of rapid prototyping techniques. Directfabrication can provide potential cost and time savings by eliminatingintermediate steps in the fabrication of the appliance 10.

If the appliance 10 is directly fabricated from a virtual dental model,a physical dental model may still be useful to verify the appliance forquality control purposes. This may be carried out by seating the archmember 20 against a physical dental model and observing that each archmember coupling 24 releasably connects to a respective anchor 30.Assuming that the appliance 10 is properly configured and the dentalmodel represents the target dental arrangement, the arch member 20should be relaxed when releasably connected to the anchors 30. Thisprocedure can also be used to verify the appliance 10 on a dental modelrepresenting a maloccluded (or non-desired) dental arrangement to ensurethat the arch member couplings 24 of the arch member 20 can properlyconnect to the corresponding anchor couplings 34 anchors 30. In thiscase, the appliance 10 is active, so one or more portions of the archmember body 22 should be acting in force-transmitting engagement uponreleasably connecting the arch member 20 to the anchors 30.

In one or more embodiments, the arch member 20 of the appliance 10 canbe reconfigured during the course of treatment. Reconfiguring the archmember 20 and, in one or more embodiments, one or more anchors 30, canbe an efficient and cost-effective alternative to fabricating a seriesof arch members. For example, the arch member 20 may be reconfigured toguide teeth through two or more dental arrangements during the course oftreatment by making manual adjustments (e.g., bends) to one or moreportions of the arch member body 22. This can also be usedadvantageously to re-activate the appliance 10. For example, if thepatient's teeth have moved to an extent that the current appliance 10 isno longer exerting sufficient corrective force to effect tooth movement,the treating professional has the freedom to restore the correctiveforces applied by the appliance by making appropriate adjustments to thearch member body 22. In one or more embodiments, such adjustments canalso be made to overcorrect or compensate for anticipated relapse of oneor more teeth. Optionally, the locations of the anchors 30 are capturedbeforehand using an intraoral scan or other scanning technique, and thisinformation can be used to configure the arch member body 22automatically using a wire bending apparatus or robot.

In one or more embodiments, a series of two or more arch members 20 canbe formed to provide a progressive treatment that applies selectedcorrective forces to one or more teeth such that the teeth arerepositioned from an initial maloccluded position to a final targetposition through, for at least one or more teeth, one or moreintermediate positions.

The various embodiments of orthodontic appliances described herein canbe utilized in any suitable application. In one application, anappliance (e.g., orthodontic appliance 10 of FIGS. 1-4) functions as aretainer that maintains the patient's teeth in their current positions.For this application, the dental model used to fabricate appliance 10 isa replica of the patient's current dental structure. Since the dentalmodel has the same configuration as the patient's dental structure,appliance 10 would be applying essentially zero corrective force to theteeth when placed in the mouth. If one or more of the teeth relapse, orchange location or orientation, then the appliance 10 can urge thewayward teeth back to their original positions.

In a second application, appliance 10 can be adapted to actively moveteeth from current maloccluded positions to final, desired positions.More specifically, one or more portions of the arch member body 22 canbe shaped to provide one or more corrective forces when the arch membercouplings 24 are releasably connected to the anchor couplings 34. Theinherent memory of the resilient arch member body 22 can providecorrective forces to one or more teeth as the shaped portions relax totheir normal configuration. In this application, the dental model usedto fabricate the appliance 10, therefore, represents the final dentalarrangement envisioned by the treating professional.

In a third application, appliance 10 can be configured to move teeth toan intermediate, non-final dental arrangement. This situation may beencountered when the severity or complexity of the malocclusion is suchthat a single appliance is insufficient to reposition teeth from initialto final positions. In these cases, treatment may be conducted inmultiple stages where a series of two or more arch members 20 aresequentially used with a single set of anchors 30 to incrementally andprogressively move teeth from an initial maloccluded dental arrangementto a final corrected dental arrangement. Here, the dental model used tofabricate the appliance 10 can represent an intermediate dentalarrangement that may be observed during the course of treatment.

In an exemplary embodiment of the third application, a first arch member20 is connected to the anchors 30 to re-position a patient's maloccludedteeth to an intermediate dental arrangement. The first arch member 20 isthen removed from the oral cavity. Next, a second arch member that has aconfiguration when relaxed that is different from the configuration ofthe first arch member when relaxed can be used in a similar fashion tore-position the patient's teeth from the intermediate dental arrangementto a final dental arrangement. If desired, the above process can beextended to two or more intermediate dental arrangements. In one or moreembodiments, the first arch member and the second arch member caninclude the same configuration, but the second arch member can havematerial properties that are different from the first arch member. Forexample, one or more portions of the second arch member can include astiffness that provides a corrective force or forces that are differentfrom the corrective force or forces provided by the first arch member.

Dental models representing intermediate or final dental arrangements canbe fabricated by manually forming, sectioning, and re-assembling aphysical dental casting. Digital techniques can also be used. Forexample, a final dental arrangement can be determined using a computeralgorithm or input from a treating professional, and one or moreintermediate dental arrangements derived by sub-dividing the treatmentinto a series of discrete steps can be derived. In one or moreembodiments, one or more of the intermediate dental arrangements caninclude a reduced image as is described, e.g., in U.S. PatentPublication No. 2010/0260405 (Cinader). Once each intermediate or finaldental arrangement has been derived in such fashion, respective dentalmodels may be directly fabricated using rapid prototyping methods. Eachrespective intermediate or final arch member 20 can be fabricated fromthe dental models using any suitable technique or combination oftechniques.

In one or more embodiments that utilize progressive treatment of apatient's teeth, second, third, or more intermediate scans of the teethcan be performed using any suitable technique or combination oftechniques. The practitioner or manufacturer can then utilize theseintermediate scans to provide one or more additional arch members 20that are adapted to provide one or more corrective forces to the teethsuch that one or more teeth are repositioned to either a subsequentintermediate arrangement or a final target arrangement. Any suitabletechnique or combination of techniques can be utilized to provide theseintermediate scans, models, and arch members, e.g., the techniquesdescribed in U.S. Patent Application Publication No. 2010/0260405(Cinader Jr.) and U.S. Provisional Patent Application Ser. No.62/097,733 (Attorney Docket No. 75174US002).

In general, an orthodontic appliance (e.g., appliance 10 of FIGS. 1-4)can be formed by providing a proposed specification of the orthodonticappliance, where the orthodontic appliance includes the arch member 20that includes the arch member body 22 and the arch member coupling 24connected to the arch member body. The appliance also includes a set ofanchors 30, each anchor including the anchor coupling 34 and the base 32adapted to connect the anchor to a surface of a tooth. Each arch membercoupling 24 is releasably connectable to an anchor coupling 34.

A first digital image representing a first dental arrangement associatedwith the orthodontic appliance 10 can be provided using any suitabletechnique or combination of techniques. A target digital imagerepresenting a target dental arrangement can be derived, e.g., byphysically or virtually moving teeth in the first dental arrangement toone or more desired positions. The proposed specification of theorthodontic appliance 10 can be revised based at least in part on thetarget digital image. And the orthodontic appliance 10 can be formedbased on the target digital image.

In one or more embodiments, a second digital image representing a seconddental arrangement can be provided using any suitable technique orcombination of techniques. At least one tooth in the second dentalarrangement can be in a different position from the corresponding toothin the first dental arrangement. A revised target digital imagerepresenting the second dental arrangement can be derived, e.g., byphysically or virtually moving teeth in the first dental arrangement todesired positions. The proposed specification of the orthodonticappliance 10 can be revised based in part on the revised target digitalimage. And the orthodontic appliance 10 can be revised based on therevised proposed specification.

Embodiments

1. An orthodontic appliance comprising:

a first anchor comprising an anchor coupling and a base adapted toconnect the first anchor to a surface of a first tooth, and a secondanchor comprising an anchor coupling and a base adapted to connect thesecond anchor to a surface of a second tooth; and an arch membercomprising an arch member body and first and second arch membercouplings integral with the body, the arch member body comprising across-sectional geometry that varies along a length of the body; whereinthe first arch member coupling is releasably connectable to the anchorcoupling of the first anchor and the second arch member coupling isreleasably connectable to the anchor coupling of the second anchor, andfurther wherein the arch member body comprises a first nonlinear portionbetween the first arch member coupling and the second arch membercoupling that is adapted to be spaced apart from the surfaces of thefirst and second teeth when the first and second anchors are connectedto the surfaces of the first and second teeth and the first and secondarch member couplings are releasably connected to the anchor couplingsof the first and second anchors.

2. The appliance of embodiment 1, wherein the arch member body and thefirst anchor are in a fixed relationship when the first arch membercoupling is connected to the anchor coupling of the first anchor.3. The appliance of embodiment 1, wherein the first anchor is adaptedfor displacement relative to the arch member body when the first anchoris connected to the first tooth and the first arch member coupling isreleasably connected to the anchor coupling of the first anchor.4. The appliance of any one of embodiments 1 to 3, wherein the archmember comprises a self-ligating arch member.5. The appliance of any one of embodiments 1 to 4, wherein the firstnonlinear portion extends in at least one of a gingival, occlusal,labial, and lingual direction when the first and second anchors areconnected to the surfaces of the first and second teeth and the firstarch member coupling and the second arch member coupling are connectedto the anchor coupling of the first anchor and the anchor coupling ofthe second anchor respectively.6. The appliance of any one of embodiments 1 to 4, wherein the firstnonlinear portion extends in at least one of a labial and a lingualdirection when the first and second anchors are connected to thesurfaces of the first and second teeth and the first arch membercoupling and the second arch member coupling are connected to the anchorcoupling of the first anchor and the anchor coupling of the secondanchor respectively.7. The appliance of any one of embodiments 1 to 4, wherein the firstnonlinear portion extends in at least one of a gingival and occlusaldirection when the first and second anchors are connected to thesurfaces of the first and second teeth and the first arch membercoupling and the second arch member coupling are connected to the anchorcoupling of the first anchor and the anchor coupling of the secondanchor respectively.8. The appliance of any one of embodiments 1 to 7, wherein the archmember body comprises a third arch member coupling and a secondnonlinear portion between the second arch member coupling and the thirdarch member coupling, wherein a shape of the first nonlinear portionbetween the first and second arch member couplings is different from ashape of the second nonlinear portion between the second and third archmember couplings.9. The appliance of any one of embodiments 1 to 8, wherein the firstnonlinear portion comprises a V-shaped portion.10. The appliance of any one of embodiments 1 to 9, wherein the firstnonlinear portion comprises a U-shaped portion.11. The appliance of any one of embodiments 1 to 10, wherein the firstnonlinear portion comprises an S-shaped portion.12. The appliance of any one of embodiments 1 to 11, wherein the firstnonlinear portion comprises a sinusoidal-shaped portion.13. The appliance of embodiment 12 wherein the sinusoidal portionextends in both gingival and occlusal directions when the first andsecond anchors are connected to the surfaces of the first and secondteeth and the first arch member coupling and the second arch membercoupling are connected to the anchor coupling of the first anchor andthe anchor coupling of the second anchor respectively.14. The appliance of embodiment 12, wherein the sinusoidal portionextends in both mesial and distal directions when the first and secondanchors are connected to the surfaces of the first and second teeth andthe first arch member coupling and the second arch member coupling areconnected to the anchor coupling of the first anchor and the anchorcoupling of the second anchor respectively.15. The appliance of any one of embodiments 1 to 14, wherein the anchorcoupling of the first anchor comprises a post that extends from the baseof the first anchor, and wherein the first arch member couplingcomprises a slotted portion of the arch member body that is adapted toreleasably engage the post of the first anchor.16. The appliance of any one of embodiments 1 to 14, wherein the anchorcoupling of the first anchor comprises a slot, and wherein the firstarch member coupling comprises a resilient tab that is adapted toreleasably engage the slot of the anchor coupling of the first anchor.17. The appliance of any one of embodiments 1 to 16, wherein the anchorcoupling of the first anchor is adapted to provide at least one of aselected torque, rotation, and angulation to the first tooth when thefirst arch member coupling is connected to the anchor coupling of thefirst anchor and the first anchor is connected to the first tooth.18. The appliance of any one of embodiments 1 to 17, wherein the archmember comprises a tab adapted to engage at least one of the first andsecond anchors.19. The appliance of any one of embodiments 1 to 18, wherein at least aportion of the arch member body is adapted to be attached directly to asurface of a tooth.20. The appliance of any one of embodiments 1 to 19, wherein the archmember further comprises a coating disposed on at least a portion of thearch member body.21. The appliance of any one of embodiments 1 to 20, wherein at leastone of the first and second anchors comprises a second anchor coupling.22. The appliance of any one of embodiments 1 to 21, wherein a portionof the arch member body comprises a hook.23. The appliance of any one of embodiments 1 to 22, wherein a portionof the arch member body comprises a loop.24. An orthodontic appliance comprising:

an arch member comprising an arch member body and a plurality of archmember couplings integral with the body; and a plurality of anchors eachcomprising an anchor coupling and a base adapted to connect the anchorto a surface of a tooth; wherein each arch member coupling is releasablyconnectable to the anchor coupling of an anchor of the plurality ofanchors; wherein a first portion of the arch member body is adapted toprovide a first corrective force and a second portion of the arch memberbody is adapted to provide a second corrective force different from thefirst corrective force, and further wherein the arch member body isadapted to not contact the surface of the tooth when the anchor of theplurality of anchors is connected to the surface of the tooth.

25. The appliance of embodiment 24, wherein the arch member comprises aself-ligating arch member.26. The appliance of any one of embodiments 24 to 25, wherein at leastone anchor of the plurality of anchors is adapted for displacementrelative to the arch member body when the at least one anchor isconnected to a tooth and an arch member coupling of the plurality ofarch member couplings is releasably connected to the anchor coupling ofthe at least one anchor.27. The appliance of any one of embodiments 24 to 26, wherein the archmember further comprises a coating disposed on at least a portion of thearch member body.28. The appliance of any one of embodiments 24 to 27, wherein the firstportion of the arch member body comprises a first cross-sectionalgeometry and the second portion of the arch member body comprises asecond cross-sectional geometry different from the first cross-sectionalgeometry.29. The appliance of embodiment 28, wherein at least one of the firstcross-sectional geometry and the second cross-sectional geometrycomprises a twisted portion.30. The appliance of embodiment 28, wherein at least one of the firstcross-sectional geometry and the second cross-sectional geometrycomprises a stepped portion.31. The appliance of any one of embodiments 24 to 30, wherein at least aportion of the arch member body is adapted to be attached directly to asurface of a tooth.32. A method of forming an arch member comprising an arch member bodyand an arch member coupling integral with the body, comprising:

providing a substrate comprising a resilient material; and

removing a portion of the substrate to form the arch member.

33. The method of embodiment 32, wherein removing the portion of thesubstrate comprises laser cutting the substrate to form the arch member.34. The method of embodiment 32, wherein removing the portion of thesubstrate comprises etching the substrate to form the arch member.35. The method of any one of embodiments 32 to 34, further comprisingremoving a portion of the arch member body to provide a thickness of thebody that varies along a length of the body.36. The method of any one of embodiments 32 to 35, further comprisingforming a portion of the arch member body into a selected shape.37. The method of embodiment 36, wherein forming the portion of the archmember body into the selected shape comprises bending the portion of thearch member body into the selected shape.38. The method of embodiment 36, wherein forming the portion of the archmember body into the selected shape comprises machining the portion ofthe arch member body into the selected shape.39. The method of embodiment 36, wherein the selected shape comprises ahook.40. The method of embodiment 36, wherein the selected shape comprises atwist.41. The method of embodiment 36, wherein the selected shaped comprises astep.42. The method of any one of embodiments 32 to 41, further comprisingheat-setting the arch member body.43. A method of specifying an orthodontic appliance comprising:

providing a proposed specification of the orthodontic appliance, whereinthe orthodontic appliance comprises an arch member comprising an archmember body and an arch member coupling integral with the body, and aset of anchors, each anchor comprising an anchor coupling and a baseadapted to connect the anchor to a surface of a tooth, wherein each archmember coupling is releasably connectable to an anchor coupling, andwherein the arch member body comprises a cross-sectional geometry thatvaries along a length of the body;

providing a first digital image representing a first dental arrangementassociated with the orthodontic appliance;

deriving a target digital image representing a target dentalarrangement;

revising the proposed specification of the orthodontic appliance basedin part on the target digital image; and

forming the orthodontic appliance based on the revised proposedspecification.

44. The method of embodiment 43, wherein the arch member comprises aself-ligating arch member.45. An orthodontic treatment system comprising an orthodontic appliance,wherein the orthodontic appliance comprises: a set of arch members, eacharch member comprising an arch member body and an arch member couplingintegral with the body, at least one arch member of the set of archmembers comprises an arch member body comprising a cross-sectionalgeometry that varies along a length of the body; a set of anchorsadapted to connect to respective teeth of a patient's dental arch, eachanchor comprising an anchor coupling and a base adapted to connect theanchor to a surface of a tooth; wherein the arch member coupling isreleasably connectable to an anchor coupling of an anchor of the set ofanchors; wherein a first arch member of the set of arch members has afirst cross-sectional geometry adapted to move at least one tooth from afirst arrangement to a second arrangement, and a second arch member ofthe set of arch members has a second cross-sectional geometry adapted tomove at least one tooth from the second arrangement to a thirdarrangement.46. The system of embodiment 45, wherein at least one arch member of theset of arch members comprises a self-ligating arch member.47. The system of any one of embodiments 45 to 46, wherein at least oneanchor of the set of anchors is adapted for displacement relative to atleast one arch member of the set of arch members.48. The system of any one of embodiments 45 to 47, wherein at least onearch member of the set of arch members comprises a portion that isadapted to be attached directly to a surface of a tooth.49. The system of any one of embodiments 45 all to 48, wherein at leastone arch member of the set of arch members comprises a coating disposedon at least a portion of the arch member body.50. The system of any one of embodiments 45 to 49, further comprising apalatal expander that is adapted to be connected to an arch member ofthe set of arch members.

All references and publications cited herein are expressly incorporatedherein by reference in their entirety into this disclosure, except tothe extent they may directly contradict this disclosure. Illustrativeembodiments of this disclosure are discussed and reference has been madeto possible variations within the scope of this disclosure. These andother variations and modifications in the disclosure will be apparent tothose skilled in the art without departing from the scope of thedisclosure, and it should be understood that this disclosure is notlimited to the illustrative embodiments set forth herein. Accordingly,the disclosure is to be limited only by the claims provided below.

1. An orthodontic appliance comprising: a first anchor comprising ananchor coupling and a base adapted to connect the first anchor to asurface of a first tooth, and a second anchor comprising an anchorcoupling and a base adapted to connect the second anchor to a surface ofa second tooth; and an arch member comprising an arch member body andfirst and second arch member couplings integral with the body, the archmember body comprising a cross-sectional geometry that varies along alength of the body; wherein the first arch member coupling is releasablyconnectable to the anchor coupling of the first anchor and the secondarch member coupling is releasably connectable to the anchor coupling ofthe second anchor, and further wherein the arch member body comprises afirst nonlinear portion between the first arch member coupling and thesecond arch member coupling that is adapted to be spaced apart from thesurfaces of the first and second teeth when the first and second anchorsare connected to the surfaces of the first and second teeth and thefirst and second arch member couplings are releasably connected to theanchor couplings of the first and second anchors.
 2. The appliance ofclaim 1, wherein the arch member body and the first anchor are in afixed relationship when the first arch member coupling is connected tothe anchor coupling of the first anchor.
 3. The appliance of claim 1,wherein the first anchor is adapted for displacement relative to thearch member body when the first anchor is connected to the first toothand the first arch member coupling is releasably connected to the anchorcoupling of the first anchor.
 4. The appliance of claim 1, wherein thearch member comprises a self-ligating arch member.
 5. The appliance ofclaim 1, wherein the first nonlinear portion extends in at least one ofa gingival, occlusal, labial, and lingual direction when the first andsecond anchors are connected to the surfaces of the first and secondteeth and the first arch member coupling and the second arch membercoupling are connected to the anchor coupling of the first anchor andthe anchor coupling of the second anchor respectively.
 6. The applianceof claim 1, wherein the arch member body comprises a third arch membercoupling and a second nonlinear portion between the second arch membercoupling and the third arch member coupling, wherein a shape of thefirst nonlinear portion between the first and second arch membercouplings is different from a shape of the second nonlinear portionbetween the second and third arch member couplings.
 7. The appliance ofclaim 1, wherein the first nonlinear portion comprises at least one of aV-shaped portion, a U-shaped portion, an S-shaped portion, and asinusoidal-shaped portion.
 8. The appliance of claim 7, wherein thesinusoidal-shaped portion extends in both gingival and occlusaldirections when the first and second anchors are connected to thesurfaces of the first and second teeth and the first arch membercoupling and the second arch member coupling are connected to the anchorcoupling of the first anchor and the anchor coupling of the secondanchor respectively.
 9. The appliance of claim 7, wherein the sinusoidalportion extends in both mesial and distal directions when the first andsecond anchors are connected to the surfaces of the first and secondteeth and the first arch member coupling and the second arch membercoupling are connected to the anchor coupling of the first anchor andthe anchor coupling of the second anchor respectively.
 10. The applianceof claim 1, wherein the anchor coupling of the first anchor comprises apost that extends from the base of the first anchor, and wherein thefirst arch member coupling comprises a slotted portion of the archmember body that is adapted to releasably engage the post of the firstanchor.
 11. The appliance of claim 1, wherein the anchor coupling of thefirst anchor comprises a slot, and wherein the first arch membercoupling comprises a resilient tab that is adapted to releasably engagethe slot of the anchor coupling of the first anchor.
 12. An orthodonticappliance comprising: an arch member comprising an arch member body anda plurality of arch member couplings integral with the body; and aplurality of anchors each comprising an anchor coupling and a baseadapted to connect the anchor to a surface of a tooth; wherein each archmember coupling is releasably connectable to the anchor coupling of ananchor of the plurality of anchors; wherein a first portion of the archmember body is adapted to provide a first corrective force and a secondportion of the arch member body is adapted to provide a secondcorrective force different from the first corrective force, and furtherwherein the arch member body is adapted to not contact the surface ofthe tooth when the anchor of the plurality of anchors is connected tothe surface of the tooth.
 13. The appliance of claim 12, wherein thearch member comprises a self-ligating arch member.
 14. The appliance ofclaim 12, wherein at least one anchor of the plurality of anchors isadapted for displacement relative to the arch member body when the atleast one anchor is connected to a tooth and an arch member coupling ofthe plurality of arch member couplings is releasably connected to theanchor coupling of the at least one anchor.
 15. The appliance of claim12, wherein the first portion of the arch member body comprises a firstcross-sectional geometry and the second portion of the arch member bodycomprises a second cross-sectional geometry different from the firstcross-sectional geometry.
 16. The appliance of claim 15, wherein atleast one of the first cross-sectional geometry and the secondcross-sectional geometry comprises a twisted portion or a steppedportion.
 17. The appliance of claim 12, wherein the anchor couplingincludes at least one clip for engaging with the arch member coupling.18. An orthodontic treatment system comprising an orthodontic appliance,wherein the orthodontic appliance comprises: a set of arch members, eacharch member comprising an arch member body and an arch member couplingintegral with the body, at least one arch member of the set of archmembers comprises an arch member body comprising a cross-sectionalgeometry that varies along a length of the body; a set of anchorsadapted to connect to respective teeth of a patient's dental arch, eachanchor comprising an anchor coupling and a base adapted to connect theanchor to a surface of a tooth; wherein the arch member coupling isreleasably connectable to an anchor coupling of an anchor of the set ofanchors; wherein a first arch member of the set of arch members has afirst cross-sectional geometry adapted to move at least one tooth from afirst arrangement to a second arrangement, and a second arch member ofthe set of arch members has a second cross-sectional geometry adapted tomove at least one tooth from the second arrangement to a thirdarrangement.
 19. The system of claim 18, wherein at least one archmember of the set of arch members comprises a self-ligating arch member.20. The system of claim 18, wherein a first portion of the arch memberbody is adapted to provide a first corrective force and a second portionof the arch member body is adapted to provide a second corrective forcedifferent from the first corrective force, and further wherein the archmember body is adapted to not contact the surface of the tooth when theanchor of the plurality of anchors is connected to the surface of thetooth.